Most Distant Object Yet Detected, Bagged By Galileo Scope 101
An anonymous reader writes "It's fitting, in this 400th anniversary of the astronomical telescope, that the Telescopio Nationale Galileo (TNG) in the Canary Islands would be used to uncover the most distant object ever seen by mankind. The gamma-ray burst from April 23, a powerful explosion from a dying star, was detected by the Swift satellite using on-board gamma-ray and X-ray instruments. A flurry of activity led to the remarkable discovery that the event occurred roughly 630 million years after the Big Bang. This makes GRB 090423 the most distant known event!"
It's natural (Score:5, Funny)
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And for the billions of years since, we haven't managed to do it again. Maybe the simplest version of Hubble is that things don't work as well as they once did...
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So a cigar then.
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So we need to rename this event the "Lewinsky Event"?
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fixed that for you
Telescopio Nazionale Galileo (Score:3, Informative)
Re:Telescopio Nazionale Galileo (Score:5, Funny)
Did you really have to Godwin the thread so early?
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moin, hab'ich keine Punkte, aber das ist doch doof!
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So it is located next to West Africa, on Canarian territory, managed by Fundación Galileo Galilei (sounds... Spanish?) and owned by the Italian National Institute of Astrophysics [www.inaf.it].
I agree - very interesting info (Score:5, Interesting)
Also, it probably was very weak in heavier elements, so it would have been a very pure collection of hydrogen. So, we're looking at a pretty "pure case" of massive star formation, fuel burning and some kind of hypernova.
This is really interesting stuff.
RS
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At the risk of exposing my ignorance, what lead you to conclude that the star was weak in heavier elements? Considering how far away it was, which reduces the chances of "contaminating events" (collisions and the like), what would have kept it from 'fusing' right up to a nickel-iron core?
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when that early star exploded it would have had heavier elements, iron has been detected from 900 million years after big bang.
http://physicsworld.com/cws/article/news/17403 [physicsworld.com]
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It takes time (millions of years) for stars to form, and given the energetic state of the early universe,
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Moreover, pedestrian or not, I still challenge your conclusion:
Yes, the outer "shell" of the expanding universe is made up of lighter elements.
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Simple. Because all heavy elements (where heavy means heavier than hydrogen) are created in stars.
That early, there were simply no stars before that, so nobody could produce them.
Of course, the star himself did produce them. But the question where my knowledge ends is: Do stars with that size burn right trough to the usual iron stage, or do they explode earlier, and if yes why?
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Initially, the star would have been very metal*-poor (only a little lithium left over from the big bang.)
Given that star went supernova only 630My post-big bang, it is reasonable to assume it had a minimum mass of 3-4 Msun, and a maximum of probably 10-15 Msun. Those numbers suggest that it did fuse right to nickel.
The interesting thing (what the parent was probably refering to) is not really the final metallicity (which is merely a function of the star's mass) but the initial metalliticy, which cannot.
*To
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Perhaps we can then figure out roughly the size of the star that blowed up, in that it can't have been a star that takes more or less than about 600 million years to do that.
I believe the current guess is that such stars are among the largest stars known.
Also, it probably was very weak in heavier elements, so it would have been a very pure collection of hydrogen. So, we're looking at a pretty "pure case" of massive star formation, fuel burning and some kind of hypernova.
Even the earliest stars would have helium as well. In the earliest universe, there was crudely three parts hydrogen to one part helium (with, I gather, traces of heavier elements like lithium). And massive stars make heavier elements fast. It's possible that hypernova could go off though before the star managed to build up an iron core. I don't think we understand the circumstances of either early universe star formation or the
Early massive stars (Score:2)
possibly, but it could have been a truly massive star. when the universe was much more dense, it would seem conceivable that much more massive stars could form than are seen now. I would imagine that a 100+ solar mass star would burn very fast and, being that massive, create heavier elements.
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the star that blowed up
Assuming English isn't your first language: the past tense of blow is blew (one of those irregular verbs we're so fond of) so that should be "star that blew up".
If English is your first language: step away from the internet and read a book!
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I'm not an astrophysicist, but isn't the [super]nova itself what *produces* heavy elements?
Heresy!!!111!!1!!!!one!! (Score:2, Funny)
Everyone knows the Earth and therefore the Universe is only 6,000 years old.
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This wasn't a troll, and neither is this. I'm actually curious. How many mods are not Judeo-Christian?
If 80% of the US is of Christian faith, with the majority of the remaining 20% of the Jewish faith, you would think that post deserves at least a mod +1 Funny...
According to the 2008 demographics collected by one of the most conservative private Christian colleges around (Trinity), almost 25% of the US is NOT Christian, with over 15% of this group in my personal segment, "Agnostic or Atheist", (those of Jewish faith are about 1.2% of total). Your 80/20 percentages are not only misleading, they are also just plain wrong.
source: http://tr.im/jH4c [tr.im] (trincoll.edu)
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Slashdot is late again (Score:5, Funny)
This happened billions of years ago, and Slashdot is just reporting it now?
Re:Slashdot is late again (Score:5, Funny)
At least it's not a dupe!
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This happened billions of years ago, and Slashdot is just reporting it now?
Slashdot is just reporting from the frame of reference of the gamma photons, who experienced this explosion two days ago.
Mod Up Informative (Score:2)
Yup, one of the funny little twists that result from relativity is something that happened 630 million years ago also happened just now from a different frame of reference, and both are entirely accurate. So from the perpective of the right frame of reference (in this case, it would involve something travelling at 99.9999999999999% of the speed of light from our frame), this is a recent event.
It's fitting... (Score:3, Interesting)
It's fitting in a numerological sort of way... I'm sure that any day you'd care to pick out in the year could be linked to some date in the past that is also connected with some event in the field of astronomy, whether it be the birthday of a famous astronomer, the discovery of a moon, an extra-solar planet, the day Voyager started photographing or stopped photographing a planet...
Sorry to be an old grump.... Perhaps it's simply because I found out a very cute girl I know thinks numerology is anything more than utter nonsense and I want better genes for my children...
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So you are almost as mystical as she is, by thinking that numerology could be hereditary...
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the alien lizards who control the Earth
Your ideas intrigue me and I wish to subscribe to your newsletter.
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Holy crap! I just googled alien lizards who control the earth [google.com] and got 498,000 hits! I seriously thought you were making this shit up.
My condolences on your inability to find a sane woman, and I no longer wish to subscribe to your newsletter. There are many informative web sites I can visit instead.
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the world changed in 1984 [imdb.com]
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Well, you as a man are there to be the dominant role and offer her a defined reality.
I don't mean that in a evil "you think what I say" asshole kind of way.
But in a '"he gives me safety and comfort" supportive guidance' kind of way.
If she knows that you are very secure of your reality, she wants to join in, thereby leaving that superstitiousness behind.
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It's fitting just because 400 years ago Galileo Galilei (same name as the observatory, see?), in 1609 began his astronomical observations, and as a direct result of that came in direct conflict [wikipedia.org] with the religious establishment [wikipedia.org], since he began supporting Copernicus's heliocentric theory.
Try to explain that to the enlightened individuals who still insist nowadays that the universe is 5000-6000 years old, that dinosaur bones were placed there by some humorous d
"-1 overrated" Why? (Re:It's fitting...) (Score:1)
Go on, I suppose this comment of mine will now be modded down as 'redundant' or even 'flamebait'.
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It's probably a good thing that you found out that you and that cute girl had such major religious differences.
Myself, I recognise numerology as one of the elements of the set all things that I will not be able to rationally decide with anything I now know or am likely to learn as a human being. Other elements of this set include the why-ness of Pi's irrational value; whether the mathematical expressions on which the theory of thermodynamics rests are truly convergent; whether randomness is a fiction like
How far... (Score:1, Interesting)
I do wonder how far back we can actually see... Is there a time period from which all the light has already passed the Earth?
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1) As far as our technology permits
A) No.
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Umm, the current working scientific theory is that there was no "before" the big bang... The big bang created what we know as "timespace."
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Re:How far... (Score:4, Informative)
At the time of and before last scattering (approx. 400,000 years after the Big Bang, if our cosmological theories are reasonably close to correct), light was constantly being absorbed and reemitted, as in the interior of a star today. If you suddenly removed all the matter from a star (obviously impossible, but bear with me here), then the photons that had last been emitted would travel off in all directions.
The universal last scattering was a vaguely similar event, in that matter became sufficiently dispersed (due to the expansion of the universe) that light could now travel long distances without interacting with matter. Obviously this was not instantaneous, but on cosmological scales, it was pretty quick.
Now, an object that is at a certain temperature will in general radiate a certain amount of light, distributed in a very particular way over a range of frequencies. For instance, the temperature of the Sun's photosphere (which is about as far into the Sun as you can get and still have the gases be reasonably transparent, thus, it is the Sun's surface of outermost scattering, one might say) almost determines the spectrum of light that the Sun emits, and therefore the color that we see (yellow). This is called blackbody radiation [wikipedia.org].
So, the universe at the time of last scattering contained a gas of photons with a certain spectrum determined by the overall temperature of the universe then. When the universe became transparent, this photon gas remained, and remained at the same spectrum. It still permeates the entire universe. However, due to the expansion of the universe, the wavelength of each and every photon has increased since then, and the density of photons has decreased, leading to a photon gas that looks as if it comes from a much cooler object. In fact, now the largest number of the photons in the universe lie in the region of the spectrum designated "micro-waves", thus we refer to this leftover photon gas as the cosmic microwave background [wikipedia.org].
The CMB was a direct prediction of Big Bang cosmological models, and not a prediction of any other cosmological models, and so its observation dealt a death blow to other models such as the steady state universe.
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Can you give me a link?
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As I'm not myself a cosmologist, I don't have a link for you, unfortunately. I'm just extrapolating from my knowledge of statistical and parti
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I do wonder how far back we can actually see... Is there a time period from which all the light has already passed the Earth?
Yes. That period is called 'just now'.
Wow... (Score:1)
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[FAR OUT!] Normal(?) trends in town! TERRROOOR! :D [youtube.com]
Yes, you have to be German and know that show to find it funny in the way it was intended to be. :D
Slash4Chan? (Score:1, Troll)
Considering the amount of Anonymous Cowards posting in this thread, you'd think it's a 4chan invasion.
Now cue the 4chan jokes...
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So that's what interstellar wars look like (Score:1)
So now we've seen the end (or the beginning?) of the first interstellar war. I wonder how much more we'll see in the coming years?
Only 600 million years for a star system with planets to form and one or more civilisations to evolve, then discover and annihilate each other is quite a respectable feat!
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Or it could've merely been one battle in a Time War raging for trillions of years.
Not really the oldest event ever seen - CMB (Score:4, Interesting)
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I've seen this picture a lot of times an it fascinates me.
One question though; why is it an elongated ellipse? Is this supposed to be a "picture" of the entire universe, taken from the vantage point of the 'scope? If so, would it not have to be a 3-d image, with the viewer inside basically a sphere, where the (internal) surface of the sphere is the picture itself?
I'm not doubting what this picture is, I'm just confused over how the 3-d to 2-d projection is done.
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Yes, it is a picture of the entire universe when it was 400,000 years old taken today from the earth. But in the same way we take pictures with photo cameras, the object which the picture was taken of is 3D but the resulting picture itself is 2D. In the case of the CMB, we can think of the picture as follows: for each latitude and longitude on the earth, you point a camera straight up and record the CMB photons coming from that direction. Then, for each point on the surface of the earth (2D) you have a num
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Truly fascinating. Thanks so much! (If I could mod + reply I would, but alas...)
My own most distant object (Score:3, Interesting)
Congrats to the scientists!
The most distant object I've ever observed was on an astronomy trip to Costa Rica in February. I had set myself the challenge of sighting the nearest star in the night sky (Alpha Centauri C, aka Proxima Centauri), and the most distant object visible in all but the largest amateur-size telescopes, the quasar 3C273.
I nailed them both in a single night with patience, finder charts and an 8" Schmidt-Cassegrain. 4.2 light years and 2.5 to 3 billion, depending on which reference you use. Proxima is in a cluttered Milky Way field, while 3C273 appears to form a double star with a star in the Milky Way, not far from Gamma Virginis.
...laura
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Would the Andromeda galaxy be visible from Costa Rica? I thought CR was too far south of the Equator for anything in that part of the northern night sky to be visible.
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M31 is an easy naked-eye object if you have good dark skies. If your skies are really dark you can try for M33, though it just looks like a piece of sky that isn't as dark as the rest of the sky. I've seen both from northern Canada.
Both are theoretically visible from Costa Rica, but are pretty low in the northern sky.
...laura
and how distant was it? (Score:3, Interesting)
Too bad not one article said how distant it was. Still working on that one, but at least we know it's the "most" distant.
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As shown by follow-up observations performed with ground-based telescopes, it was a very distant event, and soon it looked like this was the farthest GRB ever observed. A team of international astronomers led by Swift Italian Team and CIBO, using the AMICI prism with the Italian Telescopio Nazionale Galileo, was able to compute its redshift at about 8.1, corresponding to a distance of more than 80 Gpc, when the universe was only slightly more than 600 million years old (Figure 2).
A little typo.... (Score:2)
By a caleidoscope...? (Score:1)